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Transcript of Maintenance handbook on Power Supply Unit for ... - RDSO
GOVERNMENT OF INDIA MINISTRY OF RAILWAYS
25 dsoh {ks=ksa ds os lkbZM LVs’kuks ij nwjlapkj laLFkkiuks gsrq
'kfDr izznk; ;wfuV ij vuqj{k.k gLriqfLrdk
MAINTENANCE HANDBOOK ON
POWER SUPPLY UNIT FOR TELECOM INSTALLATIONS AT WAY SIDE STATIONS
IN 25 KV AREA
dSeVsd@,l@izkSt@2011&12@,pch&ih,l 1-0 ebZ 2012
CAMTECH/S/PROJ/2011-12/HB-PS.1.0 MAY 2012
MAHARAJPUR, GWALIOR – 474 005
(For official use only
Content Sr. Description Page. Chapter – 1 : Power Supply unit at Way side stations
in RE area 1
1.1 Introduction 1 1.2 Working principle 1 1.3 Types of power supply systems 3 1.3.1 Fly back mode SMPS power supplies 3 1.3.2 Forward mode SMPS power supplies 3 1.4 Requirements 4 1.4.1 Battery monitoring circuitry 5 1.4.2 Charger operation 6 1.4.3 Insulation resistance 7 1.5 Specifications as per IRS:TC:72-97 8 Chapter – 2 : Power Supply unit; Make INDISCO 9 2.1 General 9 2.2 Controls, protections and indications 10 2.3 Visual inspections 11 2.4 Installation 11 2.5 Routine maintenance 13 2.6 Break down maintenance 13 2.7 Measurements 15 2.8 Circuit description 15 2.8.1 Surge suppression circuit 17 2.8.2 Line filter circuit 17 2.8.3 Control & switching circuit 18 2.8.4 HF rectifiers 18 2.8.5 Feed back circuit 20 2.8.6 Overload and short circuit control 20 2.8.7 Battery monitoring and indication circuit 21 2.8.8 Cut-off relay circuit 22 2.8.9 RFI suppression circuit 22 Chapter – 3 : Power Supply unit; Make EPSILON 23 3.1 General 23 3.2 Installation 23 3.3 Commissioning 24 3.4 Controls, protections and indications 24
Sr. Description Page. 3.5 Brief circuit description 27 3.6 Preventive maintenance 30 3.7 Troubleshooting 30 Chapter – 4 : Power Supply unit; Make BENTRON 32 4.1 General 32 4.2 Front panel terminals and indications 33 4.2.1 Fuses 34 4.2.2 LEDs 34 4.3 Installation 34 4.4 List of components 36 4.5 Fault finding procedure 39 4.6 Circuit description 41 Chapter – 5 : Power Supply unit; Make SPARK 44 5.1 General 44 5.2 Technical specifications 44 5.3 Controls LEDs and Fuses 45 5.4 Block diagram 46 5.5 Installation procedure and precautions 46 5.6 Maintenance procedure and precautions 47 5.7 PCB layout 48 5.8 Circuit diagram 49
PREFACE This maintenance handbook has been prepared to help the maintenance personnel in installation, maintenance and trouble-free performance of the system. The handbook also covers vendor specific informations on power supply equipments manufactured by RDSO approved firms.
It is clarified that this handbook does not supersede any existing provisions laid down in Signal Engineering Manual, Railway Board publications and RDSO publications. This handbook is not statutory and instructions given in it are for the purpose of guidance only.
We are sincerely thankful to Shri R.K.Sahariya, ADE/Tele/ RDSO, M/s Indisco Kanpur, M/s Epsilon, Hyderabad, M/s Bentron Calcutta & M/s Spark Hyderabad and field personnel who helped us in preparation of this handbook.
Since technological up-gradation and learning is a continuous process, you may feel the need for some addition/modification in this handbook. If so, please feel free to write us. We shall be highly appreciating your contribution.
CAMTECH S.K.SAXENA GWALIOR DIRECTOR (S&T)
Date: 31st July 2012
FORWARD
Power supply Equipment is a vital equipment for various control circuits at way side stations. Failure of these equipments may affect the punctuality of running trains.
This handbook not only covers the installation and maintenance procedures of power supply equipment but also have brief circuit description and troubleshooting.
I hope that this handbook will definitely help to improve the skill of maintenance staff.
CAMTECH A.R.TUPE GWALIOR EXECUTIVE DIRECTOR Date: 2nd August 2012
ISSUE OF CORRECTION SLIPS
The correction slips to be issued in future for this handbook will be numbered as follows :
CAMTECH/S/PROJ/11-12/HB-PS-TELE C.S. # XX date ---------------- Where “XX” is the serial number of the concerned correction slip (starting from 01 onwards).
CORRECTION SLIPS ISSUED
Sr. No.of C.Slip
Date of issue
Page No. and Item no. modified
Remarks
DISCLAIMER
It is clarified that the information given in this
handbook does not supersede any existing
provisions laid down in Signal Engineering
Manual, Railway Board and RDSO publications.
This document is not statutory and instructions
given in it are for the purpose of guidance only.
If at any point contradiction is observed, then
Signal Engineering Manual, Railway
Board/RDSO guidelines or Zonal Railway
instructions may be followed.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 1
Power Supply for Telecom Installations May’2012
v/;k; & 1 Chapter – 1 jsy fo/kqrhd`r {ks=ksa ds os lkbZM LVs’kuks ij 'kfDr izznk; ;wfuV
Power Supply Unit at Way Side Stations in RE Area
1.1. ifjp; Introduction
Power supply is a fully solid state self regulating type device which supplies one or more up to six powers at the output. Most of electronic equipments used in Railway for telecom purposes works on DC power of the range 5V, 12V, 24V & 48 V etc. Since the most commonly available supply is AC 230 volt therefore for operation of telecom equipments a power supply system is required to supply the required rated DC power supply.
1.2. dk;Z fl/nkar Working Principal
Working of power supply unit is described briefly with the help of block diagram as given below:
Figure 1: Block diagram
A regulated D.C. power supply generally consists of the four sections as shown in above block diagram. The power transformer converts the AC line voltage into a higher or lower, (or sometimes equal) AC voltage, depending on the application, and isolates the connected control equipment from the power line. The transformer output is applied to a rectifier, which converts the AC voltage into a DC voltage.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 2
Power Supply for Telecom Installations May’2012
The conversion from AC into DC is not perfect, and a certain amount of AC residue or “ripple” remains in the output of the rectifier. The rectifier is followed by a filter section, which reduces these residual AC components to produce a more nearly pure DC voltage. The filtered DC voltage is then applied to an electronic feedback or control circuit, called as regulator, which maintains the DC output voltage essentially constant for changes in load conditions or variations in line voltage.
A typical power supply arrangement at wayside stations is shown below in figure 2:
Figure 2 : Power supply Arrangement
CAMTECH/S/PROJ/11-12/HB-PS-TELE 3
Power Supply for Telecom Installations May’2012
1.3 'kfDr iznk; iz.kkyh ds izdkj Types of Power supply systems
1. Linear series regulated power supply 2. Linear shunt regulated power supply 3. Switch mode power supply Fly back mode power supply Forward mode power supply
1.3.1 ¶ykbZ cSd eksM ,l,eih,l 'kfDr izznk;
Fly Back Mode SMPS Power Supplies
Used where power requirement is less than 100W. These are simple in design using minimum components
and minimum circuit board space. Reliable in operation, efficiency 70% to 80 %.
1.3.2 QkWjoMZ eksM ,l,eih,l 'kfDr izznk;
Forward Mode SMPS Power Supplies
Used for power requirement up to 200 watts. Efficiency up to 90 % Not very common due to complicated design. Mostly
used for dc to dc conversion systems.
In this handbook we will discuss installation, maintenance, circuit diagrams, List of components and fault diagnosis procedures of the PSUs manufactured by RDSO approved firms M/s INDISCO Kanpur, M/s Epsilon, Hyderabad, M/s Bentron Calcutta & M/s Spark Hyderabad as per RDSO specification No. IRS: TC 72/97.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 4
Power Supply for Telecom Installations May’2012
1.4 vko’;drk;sa Requirements
Requirements of power supply unit for telecom installations at way side stations in 25 KV electrified area as per RDSO specification No.IRS: TC-72/97 are given below: The Power Supply Unit (PSU) shall be fully solid state
self regulating type and suitable for charging maintenance free valve regulated (sealed) lead acid stationary batteries similar to specification IRS: S-93/96 of 12V/7 Ah capacity and shall be part of PSU. The PSU shall be of single channel switch mode power supply (SMPS) design.
The PSU shall be suitable for working with six numbers of way station equipments, using DTMF signalling as per specification IRS:TC-60/93 or fully solid state way station equipment as per specification IRS: TC 47/88.
The layout of the components and wiring shall be such that all parts are easily accessible for inspection, repairs and replacement.
The AC input portion shall be clearly isolated and core of the isolation transformer shall be earthed to take care of surge and shall be protected to prevent accidental contact.
The PSU shall be of natural air cooled type suitable for indoor use in cabins and ASM's rooms. Venetian type ventilation with iron mesh from inside shall be suitably provided.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 5
Power Supply for Telecom Installations May’2012
All the components, switches, connectors etc., shall be of good quality industrial grade LCSO/RDSO approved. All the numbers of components should be clearly indicated, The LED indicators wherever used shall be of superior quality wide angle with metallic holders. The component type numbers shall not be defaced.
The transformers and chokes shall be vacuum impregnated. The PSU shall use silicon diodes, MOSFET, switching transistor and/or silicon controlled rectifiers conforming to IS: 3895 for rectification. They shall be suitably protected against surges.
The PSU shall be suitable for operating on single phase 5O Hz AC supply mains of 230 Volt nominal with variation from 160 V to 270V.
The PSU shall be designed to give a continuous DC output of 13.62 Volts nominal and cater to a load of up to two amperes with batteries fully charged, without damage to or deterioration of the components of the PSU.
The PSU shall be suitable for working as a charger for maintenance free valve regulated (sealed) lead acid stationary battery of 12V 7Ah capacity.
1.4.1 cSVjh fuxjkuh ifjiFk Battery Monitoring Circuitry
The PSU shall sense the battery voltage condition continuously and the battery OK indication shall be given by glow of a Green LED when the battery voltage is above 11.5 Volts.
Low battery indication shall be given by glow of a Red LED when the battery voltage is 11.5 volts or below.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 6
Power Supply for Telecom Installations May’2012
1.4.2 pktZj izpkyu Charger operation
o The PSU shall deliver a smoothed DC output of 13.62 V corresponding to 2.27 V/cell with a current of 7 mA (0.1% of 7 AH capacity battery).
o The DC output of PSU shall be smoothed such that the RMS ripple content of the output voltage when delivering the rated output current through a resistive load shall not exceed 5mV at the equipment load terminals when battery is not connected.
o The psophometric noise voltage shall not exceed 2mV when delivering rated output current through a resistive load at the equipment load terminals when battery is not connected.
o The overall watt efficiency shall be greater than 70% at 230V AC nominal input voltage and at rated output currents through a resistive load at the output terminals.
o The PSU shall be protected against short circuit and reverse polarity and suitable LED indications shall be provided.
o Protection arrangements for transients on the input side shall be provided with MOVRs (320 volts rating) and fuses with 2 amperes rating.
o A suitable Earth terminal shall be provided in the PSU.
o Normally the LED on load terminal shall not glow. However, blowing of fuse on load terminal shall be indicated by glow of concerned 'Red' LED.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 7
Power Supply for Telecom Installations May’2012
1.4.3 bUlwys’ku izfrjks/k Insulation Resistance
This test shall be carried out at 5OO V DC and measurement shall be done between all current carrying terminals looped together and Earth. The value shall not be less than 10 Mega ohms at 60% relative humidity and 40 degree C temperature.
1.4.4 Power supply unit for Telecom Installations at way Side
Stations in 25 KV Electrified areas is designed for 12 Volts/ 2 Amps switch mode with advanced circuitry techniques. The Unit has the required line and load regulation and very low output ripple. The unit is electrically protected against input surges, output overload, short circuit and reverse polarity of the battery connection of power supply unit ( in both cases either unit is ON and OFF). In this unit the output load can be taken for six way station equipments through 6 way terminal strips, through 0.2 Amps. Glass / Cartridge fuses. One number of maintenance free lead acid battery is fitted inside the unit having a rating of 12V/7AH.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 8
Power Supply for Telecom Installations May’2012
1.5 vkbZ vkj ,l % Vh lh% 72&97 ds vuqlkj fof’k"Vhdj.k Specifications As per IRS: TC:72-97
Electrical Specifications
Input 230V AC, 50 Hz, Single phase with input variation 160 to 270 V AC
Output Voltage 13.62 V DC nominal
Suitable for Charging Lead Acid Stationery battery of 12 V, 7Ah capacity
Load Regulation Better than 5%for load variation from no load to full load
Line Regulation Better than 0.1% for change in AC mains from 160 V to 270V AC.
Ripple Less than 5mV RMS
Psophometric Noise Voltage
Less than 2mV psophometric noise
Operating temp 0 to 50 Degree centigrade
Overall watt efficiency Greater than 70% at 230 V AC
Mechanical Specifications
Width 270 mm
Height 132.5 mm
Depth 300mm
CAMTECH/S/PROJ/11-12/HB-PS-TELE 9
Power Supply for Telecom Installations May’2012
v/;k;& 2 Chapter – 2 'kfDr izznk; ;wfuV&bafMLdks fufeZr
Power Supply Unit; Make INDISCO
2.1 lkekU; General
This chapter covers the power supply unit for telecom installations at way side stations in 25 KV area manufactured by Industrial Instruments & Controls, 8 Uptron Estate, Panki Kanpur-208022. Front view of power supply equipment is shown below in figure No.3.
Figure 3: Front View
CAMTECH/S/PROJ/11-12/HB-PS-TELE 10
Power Supply for Telecom Installations May’2012
2.2 daVªksy j{k.k ,oa lwpd Control protection and Indicators
1. Mains On One SPST Switch is provided on the Front Panel for Switch ON & Switch OFF the AC Mains.
2. Ac Input Protection
AC Fuse is provided on the front panel of the Power Supply Unit. The rate of fuse is 2 Ampere.
3. D.C Out Put
Two numbers of 6 way Terminal Strips are provided on the Front Panel for connecting six way Station Equipments
4. Output D.C. Fuses
Output is provided on the Front Panel by 6 Way Terminal Strips through 0.2 Amps. Fuses.
5. Fuse Fail Indications
RED LEDS are provided across the Load output fuses. If any one of the fuse may fail the particular LED will glow. It indicates that fuse is fail.
6. Over Load/Short Circuit Protection
The Power Supply unit is electrically protected against overload. As soon as the output current increases beyond rated current a OL /SC RED LED becomes ‘ON’ to indicate over load condition, and the power supply is protected against short circuit by suitable design of the circuit. The output current is limited to approx 16 mA and is also indicated by OL / SC RED LED.
7. Reverse Polarity
When the battery is in reverse polarity (Both when the unit is ON or OFF) the DC Fuse rated 2 Amps on the front panel will blow and RP RED LED will glow.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 11
Power Supply for Telecom Installations May’2012
8. Battery Ok Indication
The power supply unit senses the battery Voltage continuously indicated by green led if the battery voltage is above 11.5 Volts
9. Battery Low Indication
When the battery voltages falls less then 11.5 volts The RED LED will indicate “LOW” battery voltage Condition.
2.3 n`f"Vxr fujh{k.k Visual Inspection
1) Check that all fuses they are properly inserted and fuse holder is properly screwed ie fuse is properly sitting in Fuse Holder.
2) All the screws are properly tight and terminals are clean.
3) Power supply PCB is properly fitted and connector is also tightly fitted on the PCB.
4) See no component on the PCB is broken or burnt, or deterioration is seen. Get replaced it by proper value as given in component list.
5) Check battery terminals. 6) See the battery is not getting deshaped.
2.4 laLFkkiu Installation
It is portable power supply unit which can be placed any where and is fully equipped with a VRLA low maintenance battery of 7 AH, provided inside the Unit.
As the battery is provided inside and connected in circuit, so to prevent from discharge during storage period the battery fuse shall be removed and tied up to
CAMTECH/S/PROJ/11-12/HB-PS-TELE 12
Power Supply for Telecom Installations May’2012
the line cord. Whenever putting the PSU in use put this fuse in the fuse holder.
As a normal practice, before installation, check for any mechanical damages such as loose caps of the fuse holders, terminal block screws etc or any physical damages caused to the unit in any manner during the transportation.
Ensure proper earthing of the PSU which is essential to suppress RF interferences. Otherwise humming sound will be observed in equipment with which this supply is used.
When the instrument is used in a rack, the maximum ambient temperature of the rack should not exceed 50 o
C otherwise it will affect the performance of the PSU. It should be ensured that the position of the PSU in a rack permits free air circulation and that there is no heat-generating element near by.
When operating the PSU for long period, it is advisable to allow good clearance around the instrument so as to ensure free circulation of air.
At the time of dispatch the DC Fuse is removed and is kept in a plastic bag separately, so that the battery is not drained in between the period of dispatch and actual installation. At the time of installation, the fuse must be fitted before switching on.
Put the battery on charge for at least 24 hrs and do not keep the battery in idle condition for long time. Charge the battery regularly at a periodic interval of at least two days
CAMTECH/S/PROJ/11-12/HB-PS-TELE 13
Power Supply for Telecom Installations May’2012
2.5 fu;fer vuqj{k.k Routine Maintenance
If the PSU is not in use, charge the battery at least twice a week, by connecting the PSU to main line and switching it ON for at least an hour or more.
The Battery shall be Checked visually every 3 months that it is not deshaped or damages, its terminals are clean and tightly connected.
Do not put any liquid on it. Check no fluid or water is spilling on the PSU it may damage the internal Circuitry.
Check PSU voltage, it should be 13.6 + 0.1 volts if not adjust it by the trim pot P7.
Check Battery Voltage i.e. switch off AC Mains and check voltage, put little load on it. Voltage should not be less than 12 volts, if so, charge the battery.
If the battery is over discharged i.e. its voltage is less than 10 volts remove the battery and charge externally.
Keep the PSU clean possibly dust free. Prevent it from moisture. Prevent it from excessive mechanical shock. Ensure proper earthing of the equipment which is
essential for suppressing RFI. 2.6 czSd Mkmu vuqj{k.k Break Down Maintenance
In most of cases there is failure of fuses, MOVs, rectifier circuit due to high line voltage encountered by the power supply. Failure of fuse and rectifiers can be detected by continuity test. MOV normally burst out on failure.
Take out the PCB and see for any burnt or damaged components. Replace them by proper value. When you are
CAMTECH/S/PROJ/11-12/HB-PS-TELE 14
Power Supply for Telecom Installations May’2012
sure that you have replaced the damaged component, place the PCB. To test the PCB connect a series test lamp of 100 watt in series with the power supply AC mains line. And if available give the main supply through a variac by varying the voltage slowly. If the lamp glows bright, it indicates short circuit. Check bridge rectifier Diodes D1 to D 4 and top switch U-1 on the component may be short-circuited replace with new.
Also check D-1 and D5 to ensure they are OK. If the power supply starts oscillating check D-7 and capacitors C-11, C-10, C-15, C-16, and C-17. Replace the defective parts with new. If Short circuit than the LED glows permanently, check Zener Diodes DZ-7, DZ-3, DZ-4, and also DZ-9 and also IC U-4B replace defective component.
If it is beyond capability of local facility matter may be referred to Marketing Manager, Industrial Instrument & Controls , 8, Uptron Estate Panki , Kanpur. 208 011
After repairing the PSU Ensure:
Battery clamps are tight and properly screwed. The PCB is also properly placed. All fuses are of proper rating. All LEDS are properly functioning. Gently remove the dust if it is there on the PCB.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 15
Power Supply for Telecom Installations May’2012
2.7 ekiu Measurement
1) Measure out-put voltage and if necessary set it to 13.6 volts with the help of preset P7.
2) Check battery voltage after removing Battery Fuse, it should be more than 12 volts.
3) Connect a Pshophometer and check Phsophomatic noise level is not more than 2 mv.
2.8 ifjiFk o.kZu Circuit Description
The PSU circuitry is divided into following small circuits to explain its working:
Surge suppression circuit Line voltage rectifier circuit. Control & switching circuit. HF rectifiers Feedback circuits Over load and short circuit control Battery monitoring and indication circuit Cut off relay circuit RFI suppression circuit
For reference circuit diagram is shown in figure 4. The split circuits of above control circuits are also given in figures 5 to 9..
CAMTECH/S/PROJ/11-12/HB-PS-TELE 16
Power Supply for Telecom Installations May’2012
Fig
ure
4 :
Cir
cuit
Dia
gram
CAMTECH/S/PROJ/11-12/HB-PS-TELE 17
Power Supply for Telecom Installations May’2012
Figure 5: Split Circuit 2.8.1 ltZ vojks/ku ifjiFk Surge Suppression Circuit (Fig 5)
The circuit consists of a glass fuse unit FS1, Inductor L1, Fusible resistance R1, Capacitors C1, C2, C3 and MOV. It suppresses all sharp rising pulses.
2.8.2 ykbZu fQYVj ifjiFk Line Filter Circuit (Fig. 5)
It consists of a bridge rectifier constructed by four numbers of rectifier diodes D1 to D4 and capacitor C1 & C2. Line voltage is rectified and converts to DC voltage which is fed to switching MOSFET. The bleeder resistance R2 discharges power capacitor when power is switched OFF.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 18
Power Supply for Telecom Installations May’2012
Figure 6: Split Circuit
2.8.3 daVªksy ,oa fLofpax ifjiFk
Control & Switching Circuit (Fig.6)
It consist of a saw tooth generator, an error amplifier, a starter circuit, current limiting circuit, over voltage and under voltage cut off circuit, voltage regulation circuit and high voltage power MOSFET for power switching. All these circuits including MOSFET are built in a single device known as TOP Switch U-1 (TOP 234Y).
CAMTECH/S/PROJ/11-12/HB-PS-TELE 19
Power Supply for Telecom Installations May’2012
2.8.4 ,p ,Q jsfDVQk;j HF Rectifiers (Figure 6)
This circuit consists of following three circuits:
(a) Power Rectifier D9 (MBR 20100), C22, C23, C24, L2, C21 & R45
(b) Feedback Rectifier:
D6, R10, ZD2 & C11
(c) Control Rectifier
D7, C12, C13, ZD3, ZD4. It generate + 12 volt for IC U3.
Figure 7: Split Circuit
CAMTECH/S/PROJ/11-12/HB-PS-TELE 20
Power Supply for Telecom Installations May’2012
2.8.5 QhMcSd ifjiFk Feed Back Circuit (Figure 7)
It consists of Opto-isolator U2, Regulator IC U4 Voltage divider R31, P2, R32 and a series diode D9. When the feedback voltage on pin 1 of U-4 IC increases more than 2.5 volts it starts conducting so a current flows through the opto-coupler. The increasing of current in opto-coupler decrease the ON time of the switch hence decreases the voltage and vice versa. Output voltage can be adjusted by the preset P2.
Figure 8: Split Circuit
CAMTECH/S/PROJ/11-12/HB-PS-TELE 21
Power Supply for Telecom Installations May’2012
2.8.6 vksojyksM ,oa 'kkWVZ lfdZV daVªksy Over Load and Short Circuit Control (Figure 8)
This circuit provides a feedback circuit which on increase of load current shuts down the unit. The short circuit current remains less than 20 mA so that in case of continuous short circuit for long time PSU is not damaged. It restores as short circuit / over load condition removes. Circuit contains IC U-3A, MOSFET Q1, ZD7, ZD6, R20, R21, R23, R24, R19, R15, R25 and R48. As soon as current increases the voltage across R48 increases. It is more than the bias voltage generated by resistance R20 to R24. The pin 2 of IC becomes more positive than pin 3 hence MOSFET switches to OFF. A small current flows through R25, ZD3 and LED which helps to return the power supply to normal on removal of over load / short circuit condition.
Figure 9: Split Circuit
CAMTECH/S/PROJ/11-12/HB-PS-TELE 22
Power Supply for Telecom Installations May’2012
2.8.7 cSVjh ekuhVfjax o bafMds’ku ifjiFk
Battery Monitoring and Indication Circuit (Figure 9)
This circuit provides (i) low battery indication (ii) Battery OK indication (iii) OL/SC indication & (iv) Neon Indicator for AC power ON. Circuit consists of IC U6, ZD8, ZD9, Transistor Q2, R30 to R43. Zener diode ZD8 provides reference voltage to pin 2 of IC. When the battery voltage goes less than 11.5 volt i.e. less than reference voltage, Q2 stop conducting and LED1 becomes dark.
2.8.8 dV vkWQ fjys ifjiFk Cut-Off Relay Circuit (Figure 9)
Whenever battery is drained to less than 10.8 volts, it is essential to not draw further more load current. This circuit will cut off the battery from load and take in deep discharge mode. Circuit contains IC U5, Relay RL1, and other associated components.
2.8.9 vkj ,Q vkbZ vojks/ku ifjiFk
RFI Suppression Circuit (Figure 9)
It consists of C4, C5, C7A and L1. Capacitor suppresses RFI to earth and inductor restricts them to pass to line.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 23
Power Supply for Telecom Installations May’2012
v/;k; & 3 Chapter – 3 'kfDr izznk; ;wfuV&,IlhykWu fufeZr
Power Supply Unit; Make: EPSILON 3.1 lkekU; General
This chapter covers the power supply unit for telecom installations at way side stations in 25 KV area manufactured by M/s Epsilon Electronic & Components Pvt Limited, B-2, Electronic Industrial Estate, ECIL Road, Hyderabad.
3.2 laLFkkiu Installation Open the box and discard the packing material. Remove the wrapped polyethylene sheet. Carefully remove the packing material protecting the front
panel controls and indicators. Open the cover and look for any damage inside the cubicle.
In case of any damages inform to the marketing department of EPSILON.
Keep the Power Supply Unit on the floor / shelf as required within a distance of 2 meters from the AC mains socket.
Keep the input switch in OFF position. Insert the input plug in 3 pin 5 ampere main Ac socket.
Connect proper earth to the earth terminal provided at the rear panel.
There should be adequate clearance around the unit to ensure free circulation of air and easy maintenance.
If the instrument is used in a rack the maximum ambient temperature of the rack should be in range.
Unit should not be installed near heat generating items.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 24
Power Supply for Telecom Installations May’2012
3.3 deh’kafux Commissioning
Switch ON the Power Supply Unit by turning switch to ON position.
The output voltage is set at factory. However ensure that the output voltage is 13.62 volt DC at load terminals provided on the front panel.
Adjustment in out put voltage if required can be done with potentiometer “P1” provided on the PCB.
Connect battery to the battery terminals with proper polarity i.e. red wire to the positive of the battery and black wire to the negative of the battery.
3.4 daVªksy j{k.k ,oa lwpd
Controls, Protections and Indicators
Figure 10: Front View
- VE +VE
1
2 3 4 5 6
ON / OFF
OK BATTERY LOW
DC
AC
SC
RP
2A
1A
LOAD
FUSE FAIL INDICATORS
DC 200mA
Serial Number B/T
CAMTECH/S/PROJ/11-12/HB-PS-TELE 25
Power Supply for Telecom Installations May’2012
The sketch of power supply unit showing controls, protections and indications is shown in figure 10. It consist of following controls, protections and indicators. (i) easl vkWu Mains ON
One Double Pole Single Through switch is provided on the front panel for switch ON and OFF the AC mains.
(ii) ,lh buiqV j{k.k AC Input Protection
AC fuse, rated 2 Ampere, is provided on the front panel
(iii) Mhlh vkmViqV DC Output
Two numbers of 6 way terminal strips are provided on the front panel for connecting way station equipments.
(iv) vkmViqV Mhlh ¶;wtsl Output DC Fuses
Output is provided on the front panel by 6 way terminal strips through 0.2 Ampere fuses.
(v) ¶;wt Qsy ladsr Fuse Fail Indicator
Red LEDs are provided across the load output fuses. If any one of the fuse fail, particular LED will glow.
(vi) vksoj yksM 'kkWVZlfdZV Overload / Short Circuit
The power supply unit is protected against overload. As soon as the output current increases beyond the rated current, RED LED glows to indicate over load condition
CAMTECH/S/PROJ/11-12/HB-PS-TELE 26
Power Supply for Telecom Installations May’2012
and the unit is protected against short circuit by suitable design of the circuit. The output current is limited approximately 130% of the rated current and is also indicated by RED LED.
(vii) foijhr /kzqork lwpd
Reverse Polarity Indication [RP]
If battery is connected across the battery terminals in reverse polarity the DC fuse provided on the front panel will blow in both condition either power supply unit is ON or OFF and thus protect power supply unit. The Red RP LED will also glow.
(viii) cSVjh vksds lwpd Battery OK Indication
Power supply unit senses the battery voltage. If the battery voltage is more than 11.5 volts, the GREEN LED will glow continuously.
(ix) cSVjh yks lwpd Battery Low Indication
If battery voltage decreases less than 11.5 volts, the RED LED will glow and indicate low battery voltage condition.
(x) cSVjh vaMj oksYVst lwpd
Battery under Voltage Indication
This indicator indicates that battery voltage falls to 10.8 volts. In this condition in the absence of Ac mains the battery will disconnect from the load. On resumption of AC mains battery will automatically get connected in float charge.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 27
Power Supply for Telecom Installations May’2012
3.5 laf{kIr ifjiFk fooj.k Brief Circuit Description
AC mains is connected to the power supply unit through DPST ON-OFF switch, 2 ampere fuse and the line filter coil. Line filter coil (LF) and capacitor C1 attenuate differential mode emission currents caused by the fundamental and harmonics of the primary current wave form. Line filter LF and capacitor C15 & C16 attenuate common mode emission currents caused by high voltage, switching wave forms on the drain side of the primary winding and the primary to secondary capacitance. The AC power is rectified and filtered by diodes D1 to D4 and capacitor C4 to the high voltage DC bus applied to the primary winding of T1. The other side of the transformer primary is driven by the integrated high voltage MOSFET connected IC U1. Diode D5 and zener diode ZD1 clamp the leading edge voltage spike caused by transformer leakage inductance to a safe value and reduce ringing. The power secondary winding is rectified by schottky Diode D15 and filtered by capacitor C11 to generate DC output voltage. L1, L2 and C11 to C14 are provided additional filtering to reduce high frequency ripple voltage. The T1 primary bias winding is rectified by D6 and filtered by capacitor C6 to create the top switch bias voltage. Capacitor C5 sets the auto-restart frequency and also filters opto-coupler noise currents. Overall control loop frequency response is tailored by C5, R2 and top switch control pin impedance. Constant voltage/constant current supply using the U4 quad output Amplifier for both voltage and current control. Power loss is lower and efficiency is maximum because smaller resistance values are used as sensing resistor R46. Out put voltage is sensed by R22, R23, and R24 & P1 and then compared by output amplifier U4B to reference U2. U2 shunt
CAMTECH/S/PROJ/11-12/HB-PS-TELE 28
Power Supply for Telecom Installations May’2012
regulator integrates an accurate 2.5 volt band gap reference. The output of U4B drives current through D12 and R6 into the LED of opto coupler U2 to control the duty cycle. R20, C10 and R21 compensate the voltage control loop of the supply. Output current is sensed by R46. the voltage across R46 is compared by U4A to the divider voltage determined by R11, R12 and reference U2. The output of amplifier U4A drives current through D10 and R6 into the LED of opto coupler U2 to control duty cycle. The current control loop is compensated by R8 & C8. Diodes D10, D11 and D12 “OR” the output amplifier’s output together, such that the output amplifier with the highest output voltage drives opto-coupler current and controls the duty cycle. The secondary bias winding is rectified by Diode D7 and is filtered by capacitor C7 generate bias supply for the secondary control circuit.
The voltage across R46 is compared by output amplifier U4C to the divider voltage determined by R26, R27, R28 and reference U2. The U4Cdrives the transistor Q1 through resistor R29. The output is increased beyond rated current the drop across R46will increase and the output of the U4C will become high and drive the transistor Q1, the overload / short circuit LED will glow. O/P Amp U5A is sensing the battery voltage and is indicated by battery OK and battery low LEDs. The output voltage is sensed by R32, R33, P2 and then compared by U5A to reference zener diode ZD2. If the output voltage is greater than 11.5V DC, the U5A output will become low. The transistors Q2 & Q3are not conducted the battery OK LED will glow. When the output voltage falls to less than 11.5 volt, the output of U5A will become high and the transistors Q2 & Q3 will conduct, then the battery OK LED go OFF and battery low LED will glow. The lay out of printed circuit board (PCB) is given in figure 11.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 29
Power Supply for Telecom Installations May’2012
Figure 11 : PCB lay Out
CAMTECH/S/PROJ/11-12/HB-PS-TELE 30
Power Supply for Telecom Installations May’2012
3.6 izfrca/kd vuqj{k.k Preventive Maintenance
If preventive maintenance taken time to time it will reduce the occurrences of major faults and break downs during operation. The following measures should be taken at regular intervals.
1. Check the output voltage and ripple contents of the
supply. 2. Keep the unit clean i.e. free from dust and moisture as
excessive amount of dust and moisture will result in surface leakage paths and interfere with the functioning of the circuit. Clean & compressed air should be used to blow off the dust.
3. Visually inspect the components from deterioration. Burn out or heavily loaded resistors will show charred or tarnished look. Leaky or highly deteriorated electrolytic capacitors are some times characterized by a corroded appearance.
4. Ensure that the printed circuit cards are firmly seated in their connectors held at their supports.
5. Check all the nuts for tightness. 6. Check all the fuses on the front panel
3.7 nks"k fuokj.k Trouble Shooting
To find out any obvious defects such as open circuit, burnout components etc remove the cover for visual inspection of all parts. The possible faults and its remedial measures are given below:
CAMTECH/S/PROJ/11-12/HB-PS-TELE 31
Power Supply for Telecom Installations May’2012
Sr. Nature of
Problem Probable case Action to be
taken 1 Output voltage is
zero while AC input switch is ON and AC lamp is not glowing
AC fuse blown Check and replace AC fuse with correct rating
2 AC fuse blown continuously
MOSFET may be defective
Check and replace the faulty MOSFET
3 Output is zero while AC input lamp is in ON condition
Rectifier Diode D13 may defective
Check and replace the faulty schottky Diode
4 SC/OL LED glows
PSU current exceeding (2A) of the rated current
Reduce the Load
5 AC main is available but battery low LED is glowing
DC fuse may blown
Check and replace the fuse with correct rating
6 RP LED is glowing
Battery polarity may be reverse
Check and connect in correct polarity.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 32
Power Supply for Telecom Installations May’2012
v/;k; & 4 Chapter – 4 'kfDr izznk; ;wfuV&cSuVªkWu fufeZr
Power Supply Unit; Make: BENTRON 4.1 lkekU; General
This chapter covers the power supply unit for telecom installations at way side stations in 25 KV area manufactured by M/s Bentron Power Systems, 21/1 Kedarnath Chatterjee Road, Behala, Calcutta-700034.
The Power Supply Unit is designed for supplying 12V DC power of the DTMF based way station equipment or Solid state version of Impulse type way station equipments at way side stations in 25 KV electrified area.
This Power Supply Unit is a compact unit consisting of a rechargeable maintenance free Battery of capacity 12V/7AH and its suitable charger. The battery is housed inside the cabinet. When AC Power is available, the battery gets charged from the charger. Battery is kept in float mode and 12 V DC power available at the output. In case of power failure, 12 V DC is automatically available from the battery mounted inside.
Power Supply Unit is designed to feed 12V DC power to 6 nos. of the DTMF based way station equipments or solid state version of impulse type way station equipments installed at one location. Separate screw type terminals with individual fuse arrangement are provided for connecting 6 different equipments. In case of overloading by any of the equipments, corresponding fuse will blow out and LED indication for fuse blow will come up.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 33
Power Supply for Telecom Installations May’2012
4.2 ÝaV iSuy VfeZuy rFkk lwpd
Front Panel Terminals and Indicators
At front panel two strips consisting six numbers terminal screws are exist. One strip is for positive DC supply (+ 12V) and the other is for negative DC supply (- 12V). Positive wire of way side station equipment is connected to one terminal screw of positive strip and negative wire of way side station is connected to the one terminal screw of negative strips. Thus six numbers of way side station equipment can be connected with one power supply unit..
One AC ON-OFF switch along with neon indication is
provided. Front view of power supply unit make by Bentron is given below in figure 12.
Figure 12 : Front View of P/S Unit
CAMTECH/S/PROJ/11-12/HB-PS-TELE 34
Power Supply for Telecom Installations May’2012
4.2.1 ¶;wt Fuses
Following fuses are provided:
One fuse for AC input ( Rating 2 Ampere) One fuse of 2 Amp rating is provided in the battery
circuit. When this fuse is taken out or blown, battery is disconnected from the circuit. Battery will neither get charged nor feed output when this fuse is blown or taken out.
Six number fuses of 200 mA each are also provided with six numbers of DC out puts.
4.2.2 ,y bZ Mh LEDs
Following LEDs are provided:
Six LEDs for six output loads are provided. These LEDs will glow when corresponding fuse is blown out.
Two LEDs for showing indication of battery low and battery normal are provided. Low battery LED glows when battery voltage falls below 11.5 Volt.
One LED is provided for showing short circuit condition of the output.
One LED is provided for sowing reverse polarity. It glows when battery is connected in reverse direction.
4.3 laLFkkiu Installation
Takeout the power supply unit from cardboard box. See that there is no damage of the equipment during transportation.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 35
Power Supply for Telecom Installations May’2012
Normally the battery fuse is taken out from the fuse holder before transportation to keep the battery disconnect from the circuit.
Put the fuse of rating 2 Ampere in the fuse holder. The output LED (Green) will glow. This indicates that the battery is connected in the circuit.
Fix the PSU in it’s location. Connect the way side station equipments to the respective terminals.
Connect earth wire to the earth terminal exists at the rear side of the unit. Earthing must be done properly otherwise the PSU may give electrical shock due to induced voltage.
Insert the AC plug to 230 V AC socket. Switch on the AC switch. AC power indication (Neon lamp) will glow.
Now the PSU is ready for use. The inside battery will get charged and feed power automatically in case of AC power failure.
Capacity of battery is 12V / 7 AH. Calculation for the battery capacity is done on the following basis.
CONDITION OF WAY
STN EQPT
CURRENT
COSUMPTION IN mA
AVERAGE
USE HOURS/DAY
REQUIRMENT PER EQPT / 24
HOURS
STANDBY
16
16
256 mAH
RINGING
100
1
100 mAH
SPEECH
100
7
700 mAH
TOTAL 1056 mAH
CAMTECH/S/PROJ/11-12/HB-PS-TELE 36
Power Supply for Telecom Installations May’2012
4.4 vo;oks dh lwph List of Components
Item Value MakePCB PSU-7297/9809 Bentron/Micro Circuit U - 1 SG 3525 National, Motorola, Philips etc U - 2 MCT2F National, Motorola, Philips etc U - 3 LM 324 National, Motorola, Philips etc Mk;skM o thuj Mk;ksM DIODEs & ZENER DIODEs
Item Value Make D13 – D15 BY 229, 800 Volt Philips, Motorola D12 – D17 BA - 159 CDIL, ITT etc D1-D11, D16 - D18 IN 4007 CDIL, ITT etc ZD1 5.1V Zener / 1W CDIL, ITT etc ZD2 18V Zener / 1W CDIL, ITT etc ZD3 8.2V Zener / 1W CDIL, ITT etc la/kkfj= CAPACITORs
Item Value Make C1, C3 0.1mfd / 630V Philips, Desai, Keltron etc C4 150mfd/420V Philips, Webson, Keltron etc C2, C33 .0047mfd/500V Philips, Desai, Keltron etc C7 330pf/500V Philips, Desai, Keltron etc C19, C20 470pf/500V Philips, Desai, Keltron etc C26 33pf/50V Philips, Desai, Keltron etc C9 1000pf/63V Philips, Desai, Keltron etc C14 .047mfd/63V Philips, Desai, Keltron etc C18,C12, C16 C25,C22, C11 C27,C29, C31
0.1mfd/63V Philips, Desai, Keltron etc
C8 10mfd/63V Philips,Webson, Keltron etc C17 100mfd/50V Philips,Webson, Keltron etc C15, C16 47 mfd / 25 V Philips,Webson, Keltron etc C10 4.7 mfd / 25 V Philips,Webson, Keltron etc C28 1000 mfd / 25V Philips,Webson, Keltron etc C30, C32 2200 mfd / 25V Philips,Webson, Keltron etc
CAMTECH/S/PROJ/11-12/HB-PS-TELE 37
Power Supply for Telecom Installations May’2012
izfrjks/k RESISTORs Item Value Make
R1, R20, R21, R29
4.7K, 1W Philips, Webel, Keltron etc
R33 27K / 2W Philips, Webel, Keltron etc R30 1K/ 2W Philips, Webel, Keltron etc R38 2K / 2/1W Philips, Webel, Keltron etc R37 1K/2W Philips, Webel, Keltron etc R2 3K, .25W Philips, Webel, Keltron etc R3 22K, .25W Philips, Webel, Keltron etc R4 6.8K, .25W Philips, Webel, Keltron etc R5 33K, .25W Philips, Webel, Keltron etc R6, R23, R26 10K, .25W Philips, Webel, Keltron etc R8, R11, R14, R15, R18
10K, .25W Philips, Webel, Keltron etc
R19 220K, .25W Philips, Webel, Keltron etc R22 100K, .25W Philips, Webel, Keltron etc R25 1K, .25W Philips, Webel, Keltron etc R24 33K, .25W Philips, Webel, Keltron etc R35,R10, R27, R16, R9, R7
3K, .25W Philips, Webel, Keltron etc
R28,R37, R38 1K, .25W Philips, Webel, Keltron etc R17 1K, .25W Philips, Webel, Keltron etc R12, R13 2K, .25W Philips, Webel, Keltron etc R36 68K, .25W Philips, Webel, Keltron etc R32 47K, .25W Philips, Webel, Keltron etc
baMDVj INDUCTORs
Item Value Make L1, L2 100 micro Henery + 20% Bentron L3 300 micro Henery + 20% Bentron L4 600 micro Henery + 20% Bentron L5 200 micro Henery + 20% Bentron L6 200 micro Henery + 20% Bentron TFO-1 Transformer Bentron
CAMTECH/S/PROJ/11-12/HB-PS-TELE 38
Power Supply for Telecom Installations May’2012
dusDVj CONNECTORs
Item Value Make Screw type Connector
TB-10-6LP Rapid, Gillard etc
32 Way Euro Connectors
MM-B2602-C 968 MM-B1802-R 968
Mafatlal Micron or Equivalent
vU; OTHERs
Item Value Make Q1 [ Transistor] K 962 / K794 Fuji,Motorola etc RL1, RL2 [Relays] 58–12–2C Relay OEN Cartridge Fuse Holder 8 Nos. Elcom, Sonia etc Cartridge Fuse 2 Ampere E.I. Sonia etc Cartridge fuse 200 mA E.I. Sonia etc LED Holder 11 Nos. Sonia etc LED 5mm RED Kwality. ITT etc LED 5mm Green Kwality. ITT etc SPST Switch 2A/230V Elcom, Gilard etc Neon AC 230 V Gold, Sonia etc Earth terminal Elcom, Sonia etc
fMLiys ihlhch DISPLAY PCBs
Value Make RS - 7297 Bentron Res 1K/25 Watt Philips,Webel, Keltron Res 5.6 K / 25 watt Philips,Webel, Keltron
CAMTECH/S/PROJ/11-12/HB-PS-TELE 39
Power Supply for Telecom Installations May’2012
4.5 =qfV izkIru fof/k Fault Finding Procedure
Power Supply Unit is SMPS based. Most of the components are works at dangerously high voltage and anybody may get fatal electrical shock. So before open the cover, we should be very careful about the electric hazards and should take appropriate precautions of electric shock.
Nature of Fault
Remedy
AC fuse is blowing out when AC switch is put ON
In most cases AC fuse is blown out either due to defect in AC rectifier circuit or oscillator circuit. Follow the following steps:-
Check MOV MV1, Capacitor C3, C4 & C1 diodes D1-D4. If faulty, replace it.
If fault still exist, check oscillations at SMPS transformer winding.
Check Q1 and replace it if defective.
If all above are OK, then the defect is with IC of SMPS.
No Oscillation in SMPS transformer
It may be due to fault in transistor Q1, transformer TFQ1 or in IC U1 of SMPS.
Check square wave at pin 11 of IC U1 with the help of oscilloscope. The frequency should be around 25 KHz.
If no oscillation, check C16, R18 & R19 and replace if found faulty.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 40
Power Supply for Telecom Installations May’2012
If oscillation is present, check Q1 and associated circuits and replace if found defective.
Check the transformer and replace if found faulty.
DC output not available at output.
The fault may be at any of the following portion of the circuit.
No oscillation, if so check as above.
Transformer secondary winding may be defective. Replace if faulty.
Rectifier diode D15 may be defective. Replace if faulty.
Check inductors L4, L5 or capacitors C27, C28, C29, C30, C31, C32 and replace if faulty.
Output DC voltage is too low or too high.
Check feedback circuit consisting of Z3, R27, P2 opto-isolator U2 and associated circuit. Replace if faulty.
Battery not getting charged
Disconnect the battery & measure voltage at battery feed wire terminals it should be around 13.6 Volt DC. If not, adjust voltage otherwise change the battery.
If voltage is not adjustable to 13.6 V, check U1 and associate circuits.
No regulation at output
Problem may due to non functioning of feedback circuit. Check as above.
Battery indication lamp is not working properly.
Check the circuit of IC U3. Check the preset P1 and adjust if necessary.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 41
Power Supply for Telecom Installations May’2012
4.6 ifjiFk o.kZu Circuit Description
Schematic circuit diagrams are shown in figure 13 & 14. One PCB is housed inside and the entire circuit is mounted on that PCB.
230 volt AC is rectified by diodes D1 to D4 and filtered by C1 & C4. It goes to the switching transistor Q through transformer TFO1. U1 is the switch mode regulator IC which controls the switching voltage pulse width. R18, R19 & C16 determines the switching frequency. Switching frequency is set around 25 KHz.
Opto-isolator U2 along with P2 and associated resistors R2, R3, R4 and zener ZD3 forms feed back circuit. This feedback circuit controls the pulse width as a result of which the output voltage remains steady in spite of the variation of input voltage and load current.
Relay RL1 is used for starting voltage feed to the U1. When it start running RL1 is energized and U1 gets power from the oscillator. D15 is the rectifier which rectifies the 25 KHz AC switching voltage. This voltage is filtered by capacitors C27, C28, C29, C30, C31, C32, L4 & L5. The filtered DC voltage is then feed to the 6 output terminals as well as to the battery. Battery charging voltage is normally set at 13.6 volt. Relay RL2 is used to the protected the PSU when battery is connected in reverse polarity direction.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 42
Power Supply for Telecom Installations May’2012
Figure 13 : Circuit Diagram
CAMTECH/S/PROJ/11-12/HB-PS-TELE 43
Power Supply for Telecom Installations May’2012
Figure 14 : Circuit Diagram
CAMTECH/S/PROJ/11-12/HB-PS-TELE 44
Power Supply for Telecom Installations May’2012
v/;k; & 5 Chapter – 5 'kfDr izznk; ;wfuV&LikdZ fufeZr
Power Supply Unit; Make: - SPARK 5.1 lkekU; General
This chapter covers the power supply unit for telecom installations at way side stations in 25 KV area manufactured by M/s Spark Enterprises, Plot No. 10, Phase IV, IDA, Cherlapally, Hyderabad-500051. Power supply unit is designed for telecom installation at way side stations in 25 KV electrified area is a fully solid state, self regulated type, suitable for charging to maintenance free valve regulated (Sealed) lead acid stationery batteries of 12 volts 7 AH capacity and forms part of this unit.
Power Supply Unit is designed on switch mode technology and is suitable for working with six numbers of way station equipments using DTMF signaling.
5.2 rduhdh fof’k"Vhdj.k Technical Specification Input : 160 V to 270 V, 50 Hz Output : 13.6 V DC / 2 Ampere Ripple : Less than 5 mVolt Battery : Maintenance free 12 V / 7AH
Dimensions : Mechanical, 330x300x150 mm Weight : 5.75 Kgs Approx. with Battery
CAMTECH/S/PROJ/11-12/HB-PS-TELE 45
Power Supply for Telecom Installations May’2012
5.3 daVªksy] ,ybZMh o ¶;wt Controls, LED & Fuses
The front view of power supply unit make Spark Enterprises Hyderabad is shown below in figure 15. it contains following switches/fuses /LEDs on front panel. ON-OFF Switch, AC & DC Fuses, Neon lamp showing ON condition, LEDs showing Battery OK/ Battery Low, LEDs showing short circuit/battery reverse polarity, LEDs showing load connections & Positive and negative terminals for connecting load.
PO
SIT
IVE
NE
GA
TIV
E
LOAD TERMINAL
STRIPS 6 WAY
DC
FU
SE 2
00 m
A
RE
D L
ED
s
(LO
AD
TE
RM
INA
L)
BATT OK GREEN LED
BATT LOW RED LED
DC FUSE2 AMP
DC OUTPUTGREEN LED
SHORT CKTRED LED
REVERSE POLARITY RED LED
NEON LAMP230 V AC
AC FUSE 2 AMP
ON-OFF SWITCH
Figure 15 : Front View of Eequipment
CAMTECH/S/PROJ/11-12/HB-PS-TELE 46
Power Supply for Telecom Installations May’2012
5.4 CykWd js[kkfp= Block Diagram
Simple block diagram of Spark Hyderabad make power supply unit is shown below.
Figure 16 : Block Diagram 5.5 laLFkkiu fof/k ,oa lko/kkfu;ka
Installation Procedure & Precautions
Unpack the unit and verity for any damage. Open the units cover and verify the PCB mounting
and fixing of connector. Unscrew the battery clamp and put the battery
properly and fix the clamp. Insert the mains cord to 230 volt AC, switch on the
unit and observe the indications. [ AC: Neon and output: Green LED]
Connect the fully charged 12 V / 7 AH maintenance free battery in correct polarity.
230
V A
C I
NP
UT
FILTER RECTIFIER INPUT FILTER
MAIN RECTIFIER
TRANSFORMER
BATTERY
SWITCHING DEVICE
OPTO ISOLATOR
SHORT CKT& O/L
BATTERY MONITOR
CAMTECH/S/PROJ/11-12/HB-PS-TELE 47
Power Supply for Telecom Installations May’2012
Remove the positive terminal of battery and test the out put voltage and adjust it at 13.2 volts by varying the preset VR1 in main PCB.
Insert the positive terminal of the battery again. Close the cover of the unit and put the equipment in
the rack/table and connect way side equipments. While connecting battery, polarity should be observed
carefully. If the battery is connected in reverse polarity, the reverse polarity LED will glow.
In absence of mains 230 V AC, if battery voltage falls below 10.8 volt, battery will disconnect from load.
5.6 vuqqj{k.k fof/k ,oa nks"k fuokj.k
Maintenance procedure & Trouble shooting
The equipment should be cleaned for dust and moisture periodically. The battery terminals should be cleaned. All connections should be checked periodically to ensure smooth functioning of the unit.
In case if voltage adjustment is required, adjust the preset VR1. if the output LED glows red, check the fuse. If fuse is blown, replace it with proper rating fuse. PCB layout and schematic wiring of power supply unit is shown in figures 17 and 18 respectively.
CAMTECH/S/PROJ/11-12/HB-PS-TELE 48
Power Supply for Telecom Installations May’2012
5.7 ihlhch ys vkmV PCB Lay Out
Figure 17 : PCB Lay Out